DE4104513A1 - Regeneration method for adsorbent carbon - by electrical heating of carbon material which has been removed from its locating unit and pressed into shapes or fibres - Google Patents

Abstract

When active carbon serves as an adsorbent in chemical processes it must be removed from its locating unit for regeneration from time to time. The novelty is that the carbon granules are pressed into shapes or fibres which are both chemically adsorbent and electrically conductive, to facilitate uniform warming of the entire carbon material. USE/ADVANTAGE- The carbon adsorbent can be regenerated within its own locating unit to simplify handling,. A high level of regenerative efficiency is attained without the formation of hot spots.

Description

The invention relates to a method for rain eration of adsorbers, in which the adsorbent mate rial (adsorbent) is heated to a temperature at which expels the adsorbed material, d. H. desor beers.

Adsorbers have become increasingly popular in recent years dung u. a. in removing pollutants from what water or air found. For example, chlorination hydrocarbons (CHC) even in low concentrations  ions from fluid flows, such as gas or water flows, be removed by means of adsorbers. A typical application The contaminated site remediation is contaminated with CHC Soils by suction with integrated adsorption of the Pollutants. Active is often found as the adsorbent coal use.

Because the adsorption capacity due to the "occupation" if the adsorber positions decrease after a few, it is needed the adsorbent material by expulsion to regenerate the adsorbent material. These However, regeneration often causes problems:

At the moment the most common is the so-called displacement steaming method used; at the The regeneration process is successful, for example of activated carbon only partially, so that the adsorbing Material after several regeneration cycles in its Performance has waned so far that with great effort must be disposed of.

W. Kast therefore disclaims in his book "Adsorption the gas phase "(Verlag VCH Weinheim, 1988) the thermi cal regeneration or the combination of thermal Regeneration and the displacement process. To The implementation of this regeneration process must Activated carbon, however, is heated over a heat exchanger will. In most cases this means that the Activated carbon before regeneration from the adsorption process direction must be removed because of its bad Heat transfer heating the adsorber column from the outside is uneconomical.  

Furthermore, DE 29 53 672 A1 describes a method and a device for the regeneration of activated carbon be knows, by a pulsating voltage Arc is generated by the adsorbed substance releases. However, the use of arcs leads to a strong burn and thus to a quick one Consumption or wear of the adsorber.

Furthermore, a method is known from US Pat. No. 4,261,857 known, in the spent activated carbon in air tightly sealed oven with several in vertical Direction electrodes placed at intervals is filled. An electrical Current passed, which heats the activated carbon, so that the adsorbed substances are released.

In this and also in that from US-PS 42 61 857 In known processes, the activated carbon must be divided into "particles form ". The use of powder or granules shaped activated carbon has the disadvantage, however, that both the electrical as well as the heat conduction resistance is high, so the regeneration efficiency is low is. In addition, electrical heating is formed of particulate, swirlable activated carbon because of the uneven fill of heat pockets, which at the subsequent reuse as an adsorbent Ignition can lead.

In addition, it is in the known methods and Devices in which electrical heating of the Activated carbon is required for regeneration Activated carbon from the actual adsorption device refer to.  

The invention has for its object a method for the regeneration of activated carbon adsorber bern to indicate that without removing the adsorbent Material carried out from the adsorption device can be, and that a high regeneration efficiency has, without heat pockets etc. can form.

An inventive solution to this problem is in Claim 1 specified. Developments of the invention are the subject of the dependent claims.

This object is achieved in that of a process for the regeneration of adsorbers is assumed in which the adsorbent material (Activated carbon) is heated to a temperature at which expelled the adsorbed material, d. H. desorbed becomes.

According to the invention, is used as an adsorbing material used electrically conductive material in which the Activated carbon is therefore evenly electrically conductive is made that it is pressed, for example, as a tube and is sintered, with appropriate preparation sufficient electrical conductivity is maintained. To heat the electrically conductive capable adsorbent material Current passage warms that the adsorbed material is driven out.

The heating can be done by direct current passage (Claim 3) take place. For this, suitable electrical the provided to which a DC or AC chip is created.  

Furthermore, it is also possible to use the electrically conductive adsorbent material inductively with a known To heat induction heating device (claim 4).

It is also possible to use instead of or in addition to heating due to electrical continuity, the Er heating of the adsorbent material by a micro shaft heating through which the material just if the entire volume is heated evenly (Claim 5).

In any case, the regeneration of the adsorbent Materials both in the actual adsorption pre direction as well as outside the adsorption device respectively. With a (usually preferred) rain ration of the adsorbent material in the adsorption of course, the device must ensure that the desorbed pollutants in a suitable manner will catch.

The method according to the invention, in which heating of the adsorbent material through current passage and / or Microwave heating can be done independently the state of the adsorbent can be applied: see above it is possible to use hollow fibers or hollow fibers as the adsorbent Pillars through which the medium loaded with pollutants flows, or to use mat-shaped structures.

In case of using activated carbon as adsorb of the material can be activated carbon in the desired geometric shape easily by coking by correspond corresponding structures are produced. As starting material rial can z. B. Coals, extruded pitch or any polymers such as nylon, polyamides, cellulose  etc. can be used in the desired form are present and the air sealed on the Verko temperature. When you reach one certain degree of coking results in an electri conductivity, which is sufficient heating of Adsorbers with usual voltages allowed.

In any case, it is advantageous if the Pollutants desorbed during the regeneration phase are carried out by a carrier gas stream. The Carrier gas flow can be, for example, an inert gas (An saying 8) or water vapor (claim 7). In the Use of water vapor as a carrier gas will be one on the one hand thermal regeneration and displacement regeneration combined with each other and others on the one hand the pollutants through condensation in particular just deposited. Through the direct heating however, the formation of water vapor condensate in the Prevents pores of the adsorbent material which the known displacement regeneration process Diffusion of the desorbing pollutant molecules changes, and so the regeneration after a few cycles Brings to a standstill.

The invention is illustrated below with reference described in more detail on the drawing, in which:

Figs. 1 to 4 different embodiments of the invention.

Figs. 1 to 4 show adsorber devices according to the invention designed so that they allow for "in-situ" regeneration of the adsorbent material. For this purpose, the adsorbent material is in the form of hollow tubes 2 which, for. B. have been produced by a pressing or sintering process.

In order to enable heating of the adsorbing material in example by direct current passage, suitable electrodes 1 'and 1 ''are provided in the exemplary embodiments shown, to which a direct or alternating voltage is applied. Furthermore, it is also possible to heat the electrically conductive adsorbing material 2 inductively with a known induction heating device.

Fig. 1 shows the basic structure of a Vorrich device, in which tubes 2 are used as an adsorbent material, while Fig. 2 shows a possibility of contacting the tubes 2 by the electrodes 1 : By acting on the electrode 1 'by means of a spring 3rd In the direction of the tubes 2 there is a particularly low contact resistance.

Fig. 3 shows an embodiment in which the ad sorbing material is in the form of activated carbon capillaries 2 ', in which, for example, solvent-laden air enters, which then exits as solvent-free air. The capillaries 2 'are connected by means of a conductive adhesive 4 with a metal ring 5 consisting of Al, Cu or VA, which serves as an electrode.

In any case, the regeneration of the adsorbing material 2 can take place both in the actual Adsorptionsvor direction and outside of the adsorption device. When the adsorbing material is regenerated in the adsorption device, it must of course be ensured that the desorbed pollutants are collected in a suitable manner.

This can be done directly by applying a vacuum with a subsequent cold trap or by interposing a solvent-selective membrane according to FIG. 4, which in the exemplary embodiment shown is a solvent-selective polymer film 6 , which is applied directly to the tube 2 consisting of activated carbon.

The embodiments shown can easily be produced, for example, in that a desired geometric shape present material is coked. As a starting material z. B. Presslin coal, extruded pitch or any polymer such as nylon, polyamides, cellulose etc. are used, which are in the desired form and which under Air seal warmed to the coking temperature the. When a certain degree of coking is reached there is an electrical conductivity that a sufficient heating of adsorbers with usual Tensions allowed.

It may be advantageous if the during during the regeneration phase a carrier gas stream are discharged. The carrier Gas flow can be, for example, an inert gas or water be steamy. When using water vapor as Carrier gas becomes thermal regeneration and combined the displacement regeneration with each other and on the other hand the pollutants through condensation deposited particularly easily. Through the direct Hei However, the formation of water vapor condensate becomes an issue prevented in the pores of the adsorbent material,  which in the known displacement regeneration process ren the diffusion of the desorbing pollutant molecules hinders regeneration after a few cycles brings to a standstill.

When implementing the method according to the invention it’s still an advantage if two or more ad sorber columns are used, their adsorbent Material is electrically conductive. By using it the device can have at least two adsorber columns by simply switching one or more columns are mutually loaded and regenerated so that continuous operation of the adsorption device is possible without changing the adsorbent.

Claims (12)

1. A process for the regeneration of adsorbers, in which the adsorbing material is electrically conductive and is heated by means of electric current to a temperature at which the adsorbed material is driven out, characterized in that pressed or fibrous activated carbon is used as the adsorbing electrically conductive material , and that the passage of current takes place in such a way that the material is heated uniformly throughout the volume. 2. The method according to claim 1, characterized in that as an adsorbent material Activated carbon is used, which by sintering evenly is made electrically conductive. 3. The method according to claim 1 and 2, characterized in that the adsorbent material is heated by direct current passage. 4. The method according to claim 1 and 2, characterized in that the adsorbent material is heated inductively with an induction heater. 5. Process for the regeneration of adsorbers, in which the adsorbent material is heated to a temperature is expelled at which the adsorbed material becomes, characterized in that as an adsorbent material pressed or fibrous activated carbon is used, and that heating by microwave heating  such that the material in the entire volume is heated evenly. 6. The method according to any one of claims 1 to 5, characterized in that the regeneration in the Adsorber device takes place. 7. The method according to any one of claims 1 to 6, characterized in that water vapor as the purge gas is used. 8. The method according to any one of claims 1 to 7, characterized in that an inert gas as a purge gas is used. 9. The method according to any one of claims 1 to 8, characterized in that at least two adsorbers columns are used that alternate with the damage loaded or regenerated fluid loaded will. 10. Device for performing the method after one of claims 1 to 9, characterized in that the adsorbent material is in the form of tubes or hollow fibers through which the polluted fluid flows. 11. Device for carrying out the method one of claims 1 to 9, characterized in that the adsorbent material is in the form of mats through which the pollutant loaded fluid flows.   12. The apparatus of claim 10 or 11, characterized in that a solvent selective Membrane is provided in which the desorbed Solvent preferably dissolves.